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- # main imports
- import logging
- import os
- import random
- import numpy as np
- # module imports
- from macop.solutions.discrete import BinarySolution
- from macop.evaluators.discrete.mono import UBQPEvaluator
- from macop.operators.continuous.mutators import SimpleMutation
- from macop.operators.discrete.mutators import SimpleBinaryMutation
- from macop.policies.classicals import RandomPolicy
- from macop.algorithms.mono import IteratedLocalSearch as ILS
- from macop.algorithms.mono import HillClimberFirstImprovment
- from macop.callbacks.classicals import BasicCheckpoint
- if not os.path.exists('data'):
- os.makedirs('data')
- # logging configuration
- logging.basicConfig(format='%(asctime)s %(message)s', filename='data/example.log', level=logging.DEBUG)
- random.seed(42)
- # usefull instance data
- n = 100
- ubqp_instance_file = 'instances/ubqp/ubqp_instance.txt'
- filepath = "data/checkpoints_ubqp.csv"
- # default validator
- def validator(solution):
- return True
- # define init random solution
- def init():
- return BinarySolution.random(n, validator)
- filepath = "data/checkpoints.csv"
- def main():
- # load UBQP instance
- with open(ubqp_instance_file, 'r') as f:
- lines = f.readlines()
- # get all string floating point values of matrix
- Q_data = ''.join([ line.replace('\n', '') for line in lines[8:] ])
- # load the concatenate obtained string
- Q_matrix = np.fromstring(Q_data, dtype=float, sep=' ').reshape(n, n)
- print(f'Q_matrix shape: {Q_matrix.shape}')
- operators = [SimpleBinaryMutation(), SimpleMutation()]
- policy = RandomPolicy(operators)
- callback = BasicCheckpoint(every=5, filepath=filepath)
- evaluator = UBQPEvaluator(data={'Q': Q_matrix})
- # passing global evaluation param from ILS
- hcfi = HillClimberFirstImprovment(init, evaluator, operators, policy, validator, maximise=True, verbose=True)
- algo = ILS(init, evaluator, operators, policy, validator, localSearch=hcfi, maximise=True, verbose=True)
-
- # add callback into callback list
- algo.addCallback(callback)
- bestSol = algo.run(10000, ls_evaluations=100)
- print('Solution for UBQP instance score is {}'.format(evaluator.compute(bestSol)))
- if __name__ == "__main__":
- main()
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